Methane adsorption capacity of shale samples from Western Australia
作者: J. ZouR. Rezaee
作者单位: 1Energy and Chemical Engineering , Curtin WA School of Mines: Minerals , Bentley , Australia
刊名: Australian Journal of Earth Sciences, 2020, Vol.67 (1), pp.107-113
来源数据库: Taylor & Francis Journal
DOI: 10.1080/08120099.2019.1656104
关键词: Methane adsorption capacityTotal organic carbonClay mineralsBET surface areaAdsorption affinityShale gas
原始语种摘要: Abstract(#br)To examine the influence of clay minerals on methane adsorption in shales, shale samples with low total organic carbon (TOC), ranging from 0.23 to 3.2 wt%, were collected from the Canning and Perth basins, Western Australia. The collected shale samples were measured on gas adsorption experiments: high-pressure methane adsorption and low-pressure nitrogen and carbon dioxide adsorption. Geological controlling factors of methane adsorption capacity for the studied samples were analysed based on a classification of TOC: low-TOC (<1.5 wt%) and high-TOC (>1.5 wt%) samples. The results show that the contribution of organic matter to the methane adsorption capacity of the studied samples is limited. The clay content appears to have a good relationship with the methane adsorption...
全文获取路径: Taylor & Francis  (合作)
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影响因子:1.468 (2012)

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关键词翻译
关键词翻译
  • adsorption 吸附
  • capacity 电容量
  • TOC Technical Operation Center
  • shale 页岩
  • Adsorption 吸附
  • relationship 关系
  • methane 甲烷
  • studied 学习
  • positively 断然
  • Australia 澳大利亚